Water treatment dispensing apparatus

ABSTRACT

A water treatment dispensing apparatus has a container for holding water from a water supply and a water disinfectant cartridge located within the container. A housing attached to the container and connected to the cartridge directs water from the cartridge to a remote location, such as a dental instrument. An air pressure device supplies water under pressure to the container to force water to flow through the cartridge and to the remote location.

CROSS REFERENCE TO RELATED APPLICATION

This application claims the priority benefit of U.S. ProvisionalApplication Ser. No. 61/631,207 filed Dec. 29, 2011.

FIELD OF THE INVENTION

The invention relates to the art of water treatment and purificationtechnology. The particular water treatment of the invention concerns awater purification apparatus for a dental water system. The apparatusincludes a water purification cartridge having disinfectant particulatesubstances and resins that neutralize microorganisms, bacteria, viruses,protozoa and pathogens.

BACKGROUND OF THE INVENTION

Human and animal populations, agricultural and industrial developmentand natural disasters have reduced the supply of potable water.Pollutants that pose a threat to humans and animals are pathogensincluding bacteria and viruses along with organic and inorganiccontaminants. Water can contain suspended materials, dissolved solids,and bacteriological contaminants. Domestic water systems areincreasingly being contaminated with pollutants that effect human andanimal health.

Medical and dental uses of water require a supply of water that does notcontain organic, inorganic and pathogenic contaminants. Conventional tapwater must be treated to remove organic and inorganic materials anddestroy pathogenic contaminants, such as bacteria and viruses that aredetrimental to humans. Dental instruments used in dental treatmenttheaters and clinics utilize coolant and rinse water. The water supplycan be tap water or bottled water. The water supply can be contaminatedwith organic and inorganic materials pathogenic microorganisms.Contaminated water can cause infection in dental patients andcross-infection between dental patients. Dental treatment includessubgingival invasion of the mucosa therefore providing direct access tothe patient's vascular system. It is prudent to use microbiologicallytreated water for use with dental instruments in the dental treatmenttheater.

Water purification cartridges have been used with dental instruments toprovide the dental instruments with clean and disinfected water. Thecartridges are located in the water lines connected to the dentalinstruments. The cartridges have water purification resins containingpolyiodide that neutralizes and kills disease-causing bacteria, virusesand protozoa. The water discharged by the dental instrument contains thedisinfectant thereby reducing the potential of cross infection betweendental patients. Examples of a water purification system for a dentalinstrument is disclosed by Leo H. Wolf and Mark F. Wolf in U.S. Pat.Nos. 5,230,624; 5,370,534 and 5,556,279.

SUMMARY OF THE INVENTION

The water treatment dispensing apparatus functions to neutralize anddestroy the active effectiveness of pathogenic contaminants includingwater borne bacteria and viruses to provide safe and clean potablewater. The apparatus has a container or bottle having an internalchamber for holding water. The container is releasably mounted on ahousing to allow the container to be removed from the housing forcleaning and replacement of a cartridge located within the container. Awater supply unit is operable to supply water to the housing fordischarge into the interior chamber of the container. The water sourcecan be tap water from a municipal water supply or bottled waterincluding distilled or deionized water. An air pressure device operatesto supply air under pressure to the housing and internal chamber of thecontainer to subject the water in the internal chamber to air pressure.A cartridge containing a bed of disinfectant material located in theinternal chamber has an end member connected to the housing to allowdisinfected water to flow out of the cartridge to the housing and fromthe housing to a desired location. The air pressure in the interiorchamber forces the water in the internal chamber of the container toflow through the cartridge. Filters associated with end member sleevesretain the bed of disinfectant material in the internal chamber of thecontainer and remove organic, inorganic and microbiological contaminantsfrom the water flowing into and out of the internal chamber of thecartridge. An air pressure gauge connected to the housing monitors thepressure of the air in the internal chamber of the container.

The cartridge has an elongated tubular body having an internal chamberor lumen accommodating disinfectant material, including multi-valentiodine resin, silver compositions and silver impregnated activatedcarbon. A first end member releasably mounted on one end of the tubularbody has a passage allowing water from the internal chamber of thecontainer to flow into the internal chamber of the tubular body. Thefirst end member includes a sleeve accommodating a filter operative toremove organic and inorganic materials from the water flowing throughthe filter. The sleeve is releasably mounted on the tubular body toallow the end member to be placed on and removed from the tubular bodyand to allow the disinfectant material to be placed in the internalchamber of the tubular body. A second end member releasably mounted onthe water outlet end of the tubular body is attached to the housing tofix the location of the cartridge in the internal chamber of thecontainer with the cartridge extended into the water in the internalchamber of the container. The second end member includes a sleeveaccommodating a filter operative to retain the disinfectant material inthe internal chamber of the tubular body.

The water treatment dispensing apparatus including the cartridgecontaining disinfectant material is usable in medical and dentalapplications. A flexible conduit or hose is joined to the water inlet ofthe dynamic dental instrument to supply the instrument with clean anddisinfected water. The conduit is easy to install without the need tocut into expensive dental instrument tubing. Iodine containingdisinfectant material is an effective destroyer of water bornepathogenic organisms. Other types of disinfectant materials can be usedto inhibit and destroy bacteria, viruses and pathogens in water suppliedfrom the cartridge to the dental instrument.

DESCRIPTION OF THE DRAWING

FIG. 1 is a front elevational view of a water treatment dispensingapparatus having a water disinfectant cartridge;

FIG. 2 is a front elevational view partly sectioned of the watertreatment dispensing apparatus showing the water disinfectant cartridge;

FIG. 3 is a diagram of the top plan view of FIG. 1 employed with adynamic dental instrument;

FIG. 4 is an enlarged sectional view taken along line 4-4 of FIG. 3 ;

FIG. 4A is a sectional view taken along line 4A-4A of FIG. 3 ;

FIG. 5 is an enlarged foreshortened front elevational view of the firstembodiment of the water disinfectant cartridge employed in the watertreatment dispensing apparatus of FIGS. 1 and 2 ;

FIG. 6 is a top plan view of FIG. 5 ;

FIG. 7 is a bottom plan view of FIG. 5 ;

FIG. 8 is a foreshortened sectional view taken along the line 8-8 ofFIG. 5 ;

FIG. 9 is a sectional view taken along the line 9-9 of FIG. 8 ;

FIG. 10 is a sectional view taken along the line 10-10 of FIG. 8 ;

FIG. 11 is a sectional view taken along the line 11-11 of FIG. 8 ;

FIG. 12 is an enlarged foreshortened front elevational view of a secondembodiment of the water disinfectant cartridge;

FIG. 13 is a top plan view of FIG. 12 ;

FIG. 14 is a bottom plan view of FIG. 12 ;

FIG. 15 is a foreshortened sectional view taken along line 15-15 of FIG.12 ;

FIG. 16 is a sectional view taken along line 16-16 of FIG. 15 ;

FIG. 17 is a sectional view taken along line 17-17 of FIG. 15 ;

FIG. 18 is a sectional view taken along line 18-18 of FIG. 15 ;

FIG. 19 is an enlarged foreshortened front elevational view of a thirdembodiment of the water disinfectant cartridge;

FIG. 20 is a top plan view of FIG. 19 ;

FIG. 21 is a bottom plan view of FIG. 19 ;

FIG. 22 is a foreshortened sectional view taken along the line 22-22 ofFIG. 19 ;

FIG. 23 is a sectional view taken along line 23-23 of FIG. 22 ;

FIG. 24 is a sectional view taken along the line 24-24 of FIG. 22 ;

FIG. 25 is a sectional view taken along the line 25-25 of FIG. 22 ;

FIG. 26 is an enlarged foreshortened front elevational view of a fourthembodiment of the water disinfectant cartridge;

FIG. 27 is a top plan view of FIG. 26 ;

FIG. 28 is a bottom plan view of FIG. 26 ;

FIG. 29 is a sectional view taken along line 29-29 of FIG. 26 ;

FIG. 30 is a sectional view taken along line-30-30 of FIG. 29 ;

FIG. 31 is a sectional view taken along line 31-31 of FIG. 29 ; and

FIG. 32 is a sectional view taken along the line 32-32 of FIG. 29 .

DESCRIPTION OF WATER DISPENSING APPARATUS

A water treatment dispensing apparatus 10, shown in FIGS. 1 and 2 , hasa container or bottle 11 joined to a housing or cap 17. Container 11 hasa cylindrical side wall 12 and a neck 13 surrounding an internal chamber16. Neck 13 includes a passage 14 open to chamber 16 and the bottom ofcap 17. Neck 13 and cap 17 have cooperating threads 26 or releasableconnectors that allow container 11 to be turned on and off of cap 17. Abracket 15 retains cap 17 on a support. Other structures can be used tohold cap 17 and container 11 in a fixed position. As shown in FIG. 4 ,cap 17 has a body 18 joined to a downwardly directed sleeve 19. Body 18is connected to a tube 21 with a connector 22 for supplying water to apassage 23 in body 18. Passage 23 is open to passage 14 whereby water 20is dispensed into chamber 16. As shown in FIG. 3 , a water supply unitconnected to a water supply 44 directs water into tube 21. A valve 46incorporated in tube 21 is manually operated to regulate the flow ofwater into chamber 16. Water supply 44 can be ordinary tap water from amunicipal water system. Distilled or deionized water in a bottle can bedispensed into chamber 16. Water having a pH level less than 8 and achlorine level less than 6 is preferred. As shown in FIG. 4 , sleeve 19surrounds a cavity 24 accommodating neck 13 of container 11. Neck 13 andsleeve 19 have cooperating threads 26 that retain container 11 on cap17. A seal 27, shown as an O-ring, located between the annular end ofneck 13 and body 18 prevents air and water leakage from container 11.Container 11 is manually turned to attach container 11 to cap 17 andremove container 11 from cap 17.

Compressed air is supplied to cap 17 with an air supply unit having anair pump 28 driven with an electric motor controlled with a manuallyoperated controller 29. Air is directed to a check valve 31 located in atube 32. A connector 33 secures tube 32 to body 18 to direct air to apassage 34 in body 18 open to neck passage 14. As shown in FIG. 2 , airin chamber 16 applies pressure, shown by arrows 50, on water 20 to forcethe water to flow into a water purification cartridge 43. The water exitend of cartridge 43 is connected to a tube 41 joined with a connector 42to body 18 of cap 17. Body 18 has a passage 36 open to tube 41 and aflexible conduit or hose 37 operable to transport water shown by arrow51 from container 11 to a dental hand instrument 38. A connector 39joins hose 37 to body 18 of cap 17. Dental instrument 38 shown as adental hand piece includes an air/water syringe, ultrasonic scaler orother dynamic dental instruments.

The air pressure in chamber 16 is monitored with an air pressure gauge47 mounted on body 18 of cap 17 with a connector 48. Gauge 47 has anindicator providing visual information concerning the air pressure inchamber 16. Other types of air pressure gauges or indicators can be usedto monitor the air pressure in chamber 16. As shown in FIGS. 3 and 4A,body 18 has a passage 49 connecting air pressure gauge 47 with passage14 whereby gauge 47 visually displays the air pressure in chamber 16.The air pump 28 is operated to supply air under pressure to chamber 16at selected air pressure levels.

A first embodiment of cartridge 43, shown in FIGS. 5 to 11 , comprisesan elongated linear tubular body 52 having a cylindrical side wall 53including a first inlet end 54 and a second outlet end 56 surrounding aninternal chamber 57. Body 52 is a tubular one-piece member of polymericmaterial, such as rigid polyethylene or like materials that areresistant to build up of organic matter inside the tubular member.Polypropylene and polyvinyl chloride can be used as materials for thetubular member. A first end member 58 attached to inlet end 54 of body52 allows water from chamber 16 to flow into chamber 57 of body 52.Member 58 has a base 59 joined to a sleeve 61. Body inlet end 54 andsleeve 61 have cooperating threads 63 that allow member 58 to beassembled on and removed from end 54. When base 59 is assembled on end54, an annular shoulder of base 59 is located in engagement with theannular bottom surface 62 of end 54. Base 59 has an opening 64 incommunication with a cavity 66 in base 59 and sleeve 61. A filter 67located in cavity 66 is used to remove organic, inorganic and foreignmaterials from the water flowing into chamber 57. Filter 67 is acylindrical polypropylene member having small porosity such as 5microns. Other types of filters can be used to remove particulates fromthe water flowing through member 58 into chamber 57. Filter 67 can beremoved from cavity 66 and replaced with another filter. The filter 67can extend into chamber 57. Filter 67 can include activated charcoalthat functions to remove chlorine and chlorine compounds from the waterflowing out of the filter into chamber 57.

As shown in FIGS. 8, and 9 ; chamber 57 contains a bed of disinfectantmaterial 68 that has germicidal functions to neutralize and destroywater contaminants including bacteria, viruses and other pathogens. Thedisinfectant material 68 also supplies a residual disinfectant in thewater flowing out of cartridge 43. The residual disinfectant eluted fromthe disinfectant material 68 neutralizes water contaminants in tube 41,hose 37 and hand piece 38. The materials of tube 41 and hose 37 absorbdisinfectant until the inside walls of tube 41 and hose 37 becomepassivated or saturated with disinfectant to prevent microbial adhesionand biofilm slime in tube 41 and hose 37. The water spray dispensed fromhand piece 38 includes the disinfectant which destroys oral flora andreduces the potential cross-infection between dental patients andprevents disease transmission to the patients.

An example of disinfectant material 68 is a resin containing polyiodide,I₅, as described by Lambert and Fina in U.S. Pat. No. 4,238,477 andFina, Lambert and Bridges in U.S. Pat. No. 4,999,190. A continuousrelease of iodine into the water neutralizes disease causing bacteria,viruses and other pathogens. Iodine is an effective disinfectant forwater borne pathogenic bacteria and viruses. An alternative disinfectantmaterial can be an iodinated anionic exchange resin manufactured andsold by MCV Technologies International, Inc. of Belleville, Ill. Thisresin releases a specific and consistent amount of iodine into the waterflowing in chamber 57 to neutralize the microbial contaminates in thewater. The disinfectant material 68 can be a resin matrix iodinated withelemental iodine, I₂, to a level of 2 to 6 ppm of iodine in waterflowing through the resin. The resin contains approximately 46 percentby weight active iodine and 54 percent by weight of inactiveingredients. The effluent iodine removes biofilm from tube 41, hose 37and hand piece 38 and performs a germicidal function thereon. Thedisinfectant material 68 can be a silver composition that containssilver and a metal or a silver impregnated activated carbon thatmaintains sufficient amounts of silver ions in the water to effectivelydisinfect the water. Examples of silver self-regulating waterpurifications are disclosed in U.S. Pat. Nos. 5,223,149 and 6,254,894.

A second end member 69 on the outlet end portion 56 of body 52 has asleeve 71 and tubular nipple 73. Sleeve 71 and end portion 56 havecooperating threads 72 that releasably connect member 69 to body 52.Thread 72 allows end member 69 to be assembled on an removed from body52. Sleeve 71 has a cavity 76 open to chamber 57 and a passage 74 innipple 73 to allow water to flow from chamber 57 into the lumen of tube41. A filter 77 located in cavity 76 prevents disinfectant material 68from flowing through end member 69 into tube 41. Filter 77 is acylindrical polypropylene porous member that fills cavity 76 with atight fit contact with sleeve 71. Filter 77 can extend inwardly intochamber 57. Other types of filters and screens can be used to confinethe disinfectant material 68 to chamber 57. An annular outside wall 78joined to sleeve 71 surrounds nipple 73. Wall 78 spaced from nipple 78provides an annular pocket 79. Tube 41 telescoped on nipple 73 extendsinto pocket 79 to connect tube 41 to end member 69 and allow water toflow from cartridge 43 to cap 17 and hand piece 38. Alternativeconnections, such as a luer connector, can be used to retain tube 41 onnipple 73.

A second embodiment of a cartridge 143, shown in FIGS. 12 to 18 , isuseable with water dispensing apparatus 10 to disinfect water suppliedto dental hand piece 38. Cartridge 143 has the same structures ascartridge 43 with like element having the same reference numbers withthe prefix 1. Cartridge 143 has an elongated cylindrical body 152 withfirst and second end members 158 and 159 releasably connected toopposite end portions 154 and 156 of body 152. First end member 159 hasa cylindrical body 159 joined to a sleeve 161. End portion 154 of sidewall 153 of body 152 and sleeve 161 have cooperating threads 163 thatreleasably connect end member 159 to body 152. End member 159 can beremoved from body 152 and replaced with another or different end member.End member 159 has an annular shoulder 162 located in engagement withthe end of end portion 152 when end member 159 is located on body 152.End member 158 has an opening 164 in communication with a cavity 166within sleeve 161. A filter 167 disposed in cavity 166 removesparticulates from water flowing through filter 167 into chamber 157located within cylindrical wall 153 of body 152. A bed of disinfectantmaterial 168 located within chamber 157 destroys and neutralizesbacteria, viruses and pathogens in the water flowing in chamber 157.Disinfectant material 168 is the same as disinfectant material 68.Second end member 169 has a sleeve 171 mounted on end portion 156 ofbody 152. Cooperating threads 172 on end portion 156 and sleeve 171releasably retain sleeve 171 on body 152. End member 169 has a tubularnipple 173 having a passage 174 open to a cavity 176 within sleeve 171.A filter 177 located in cavity 176 prevents disinfectant material 168from flowing with water through the filter 177 into passage 174 and hose37 and hand piece 38. End member 169 has an annular wall 178 locatedaround nipple 173 providing an annular pocket 179 for accommodating atube connecting cartridge 1443 to cap 17. Annular wall 178, shown inFIGS. 12 and 13 , has a plurality of inwardly tapered ribs 181 thatfacilitate manual turning of end member 169 onto body 152 and theremoval of end member 169 from body 152.

A third embodiment of a cartridge 243, shown in FIGS. 19 to 25 , isusable with water dispensing apparatus 10 to disinfect water supplied todental hand piece 38. Cartridge 243 has the same structures andfunctions as cartridge 43 with the same elements having the samereference numbers with the prefix 2. The first end member 258 has thesame structure as second end member 269. This allows the first andsecond end members 258 and 269 to be selectively connected to tube 41.The cartridge 243 can also be used in water lines to disinfect water. Asshown in FIGS. 19, 20 and 21 , end members 258 and 269 each have aplurality of tapered ribs 281 and 283 that facilitate manual turning ofend members 258 and 269 onto the opposite ends of body 252. End members258 and 269 have annular pockets 282 and 279 for accommodating tubes orconduits for supplying water to and discharging treated water fromcartridge 243 to a remote location. A bed of disinfectant material 268located in chamber 257 neutralizes bacteria, viruses and pathogens inthe water flowing through the disinfectant material 268. Disinfectantmaterial 268 includes the same resins disclosed with regard todisinfectant material 68. These resins are incorporated by reference toidentify disinfectant material 268.

A fourth embodiment of a cartridge 343 shown in FIGS. 26 to 32 , isusable with a water dispensing apparatus 10 to disinfect water suppliedto dental hand piece 38. Cartridge 343 has the same structures andfunctions as cartridge 43 with the same elements having the samereference numbers with the prefix 3. End members 358 and 369 releasablyconnected to the opposite ends of tubular body 352 have identicalstructures that can be connected to tubes or conduits for supplyingwater to cartridge 343 and allowing water to flow out cartridge 343.Cartridge 343 can be inserted into a water line connecting a dental handpiece to a supply of water. As shown in FIGS. 26 and 29 , end members358 and 369 have tubular nipples 364 and 373 adapted to be inserted intotubes or conduits accommodating water. As shown in FIGS. 29 and 32 , endmember 358 has a body 359 joined to a sleeve 361, nipple 364 and anannular wall 380. The end portion 352 of wall 353 and sleeve 361 havecooperating threads 363 operable to releasably attach end member 358 onbody 352. A filter 367 located in a cavity 366 in sleeve 361 is operableto collect particulates and foreign matter from water flowing throughfilter 367. End member 369 has the same structures as end member 358.End member 369 has a sleeve 371 and annular wall 383. Sleeve 371 andadjacent end portion of body 352 have cooperating threads 372 thatreleasably attach sleeve 371 to body 352. A filter 377 located in acavity 376 in sleeve 371 retains disinfectant material 368 in chamber357. A bed of disinfected material 368 located in chamber 357neutralizes bacteria, viruses and pathogens in the water flowing throughdisinfectant material 368. Disinfectant material 368 includes the sameresins disclosed with regard to disinfectant material 68. These resinsare incorporated by reference to identify disinfected material 368.

As shown in FIGS. 2 and 8 , cartridge 43 containing disinfectantmaterial 68 is installed on cap 17 by connecting tube 41 on nipple 73.Tube 41 telescopes onto nipple 73 and extends into annular pocket 79.Tube 41 has a compression fit on nipple to prevent leakage of water fromtube 41. The neck 13 of container 11 is located adjacent sleeve 19 ofcap 17. Container 11 is turned about its upright axis whereby threads 26cooperate to secure container 11 to cap 17. The top annular end of neck13 engages O-ring 27 to prevent air and water from leaking out ofcontainer 11. The water supply unit is activated to discharge water 16into the internal chamber of container 11. Valve 46 is used to controlthe amount of water directed into tube 21 and container 11. Air 50generated by air pump 29 is directed through check valve 31 into tube 32coupled to cap 17. Cap passage 34 delivers air under pressure to theinternal chamber of container 11. Water 16 in internal chamber ofcontainer 11 subjected to air pressure is forced into cartridge 43 andout of cartridge 43 to cap 17 and dental instrument 38. Dentalinstrument has manually operated a water control valve 40 that regulatesthe flow or spray of water from the operating end of dental instrument38. Cartridge 43 elutes the disinfectant into water flowing through thedisinfectant material and out of the second end member 69 to the dentalinstrument 38 at a bacteria level of less than 200 cfu. In a typicalwater treatment dispensing apparatus, cartridge 43 may be used for about365 days or until the disinfectant, such as iodine, falls below 0.5 ppm.After use, cartridge 43 is removed from container 11. A new container isthen attached to cap 17. The water treatment dispensing apparatus isready for further use.

There has been shown and described several embodiments of waterdisinfectant cartridges usable with a water treatment dispensingapparatus. Changes in material, structures and disinfectant materialscan be made by persons skilled in the art without departing from theinvention.

The invention claimed is:
 1. A cartridge for a water dispensingapparatus comprising: a body having an internal chamber, a bed ofdisinfectant material located in the internal chamber of the body forneutralizing bacteria, viruses and pathogens in a water in the internalchamber of the body, a first end member disposed at a proximal end ofthe body, said first end member having a passage to allow the water toflow into the internal chamber of the body, a first filter disposedwithin and surrounded by the first end member and the internal chamberof the body operable to remove particulates from the water flowingthrough the first filter into the internal chamber of the body, a secondend member disposed at a distal end of the body, said second end memberhaving a passage open to the internal chamber to allow the water to flowout of the internal chamber, and a second filter disposed within andsurrounded by the second end member and the internal chamber operable toprevent the bed of disinfectant material in the internal chamber of thebody from moving out of the internal chamber of the body, wherein thefirst end member comprises an interior wall extending along a side ofthe first filter and contacts the bed of disinfectant material, thefirst filter having an elongated cylindrical shape extending from thepassage of the first end member to the bed of disinfectant material,wherein the second end member comprises an interior wall extending alonga side of the second filter and contacts the bed of disinfectantmaterial, wherein the second end member further comprises a nippleextending along the passage of the second end member, and the interiorwall of the second end member extending parallel to the nipple formingan annular pocket with the nipple and the nipple extends beyond theinterior wall of the second end member in a distal direction, whereinthe body comprises a cylindrical wall adjacent to a portion of theinterior wall of the second end member such that the cylindrical wall ofthe body forms a perimeter around an exterior facing portion of theinterior wall of the second end member, and the body further comprises afirst end adjacent to the first end member, the first end comprising abody threaded portion and a body shoulder portion, wherein the first endmember further comprises a base and an end member threaded portion, thebase being generally planar and perpendicular to the end member threadedportion such that the base comprises an end member shoulder portioncorresponding to the body shoulder portion and the end member threadedportion also corresponding to the body threaded portion such that adiameter of the base of the first end member is the same as a diameterof the body, wherein the interior wall of the second end member has ashoulder portion disposed on a distal end of the cylindrical wall suchthat the shoulder portion has a diameter less than a diameter of thedistal end of the cylindrical wall.
 2. The cartridge of claim 1, whereinthe bed of disinfectant material comprising a resin including a resincontaining polyiodide, an iodinated anionic exchange resin, a resinmatrix iodinated with elemental iodine, or a silver composition.
 3. Thecartridge of claim 2, wherein the resin contains 46 percent by weightactive iodine and 54 percent by weight of inactive ingredients.
 4. Thecartridge of claim 1, wherein the first end member has a cylindricalbody and an annular shoulder engaging the distal end of the body.
 5. Awater treatment dispensing apparatus comprising: a container having aninternal chamber for holding water, the container having an elongatedtubular body with the internal chamber and first and second endportions, a bed of disinfectant material located in the internal chamberfor neutralizing bacteria, viruses and pathogens in the water in theinternal chamber, a first end member contacting the first end portion,said first end member adjacent to a first cavity located within thefirst end portion, a first filter disposed within and surrounded by thefirst cavity for removing organic and inorganic materials from the waterflowing through the first filter, the first filter having an elongatedcylindrical shape extending from a passage of the first end member tothe bed of disinfectant material, a second end member contacting thesecond end portion, said second end member adjacent to a second cavitylocated within the second end portion of the elongated tubular body, asecond filter disposed within and surrounded by the second cavity forpreventing the bed of disinfectant material in the internal chamber frommoving out of the internal chamber of the elongated tubular body, and acap releasably disposed on the second end member, wherein the first endmember comprises an interior wall extending along a side of the firstfilter and contacts the bed of disinfectant material, wherein the secondend member comprises an interior wall extending along a side of thesecond filter and contacts the bed of disinfectant material, wherein thesecond end member further comprises a nipple extending along a passageof the second end member and the interior wall of the second end memberextending parallel to the nipple forming an annular pocket with thenipple and the nipple extends beyond the interior wall of the second endmember in a distal direction, wherein the elongated tubular bodycomprises a cylindrical wall adjacent to a portion of the interior wallof the second end member such that the cylindrical wall of the elongatedtubular body forms a perimeter around an exterior facing portion of theinterior wall of the second end member, and the elongated tubular bodyfurther comprises the first end portion adjacent to the first endmember, the first end portion comprising a body threaded portion and abody shoulder portion, wherein the first end member further comprises abase and an end member threaded portion, the base being generally planarand perpendicular to the end member threaded portion such that the basecomprises an end member shoulder portion corresponding to the bodyshoulder portion and the end member threaded portion also correspondingto the body threaded portion such that a diameter of the base of thefirst end member is the same as a diameter of the elongated tubular bodywherein the interior wall of the second end member has a shoulderportion disposed on a distal end of the cylindrical wall such that theshoulder portion has a diameter less than a diameter of the distal endof the cylindrical wall.
 6. The water treatment dispensing apparatus ofclaim 5, wherein the bed of disinfectant material includes a resincontaining polyiodide, an iodinated anionic exchange resin, a resinmatrix iodinated with elemental iodine or a silver composition.
 7. Thewater treatment dispensing apparatus of claim 5, wherein the bed ofdisinfectant material includes iodine.
 8. The water treatment dispensingapparatus of claim 5, wherein the bed of disinfectant material includesa silver composition.
 9. The water treatment dispensing apparatus ofclaim 5, the water treatment dispensing apparatus further comprises adental instrument connected to the container whereby the water issupplied to a dental handpiece.
 10. The water treatment dispensingapparatus of claim 5, wherein the first end member has a cylindricalbody and an annular shoulder engaging the distal end of the cylindricalwall.
 11. The water treatment dispensing apparatus of claim 5, whereinthe second filter is disposed in the second cavity defined by thecylindrical wall of the elongated tubular body.
 12. A cartridge for awater dispensing apparatus comprising: an elongated tubular body havingan internal chamber and first and second end portions, a bed ofdisinfectant material located in the internal chamber of the elongatedtubular body for neutralizing bacteria, viruses and pathogens in a waterin the internal chamber, a first end member disposed on the first endportion, said first end member having a first cavity located within thefirst end portion, a first filter disposed within and surrounded by thefirst cavity for removing organic and inorganic materials from the waterflowing through the first filter into the internal chamber of theelongated tubular body, the first filter having an elongated cylindricalshape extending from a passage of the first end member to the bed ofdisinfectant material, a second end member mounted on the second endportion of the elongated tubular body, and a second filter forpreventing the bed of disinfectant material in the internal chamber ofthe elongated tubular body from moving with the water outside thecartridge, wherein the first end member comprises an interior wallextending along a side of the first filter and contacts the bed ofdisinfectant material, wherein the second end member comprises aninterior wall extending along a side of the second filter and contactsthe bed of disinfectant material, wherein the second end member furthercomprises a nipple extending along a passage of the second end memberand the interior wall of the second end member extending parallel to thenipple forming an annular pocket with the nipple and the nipple extendsbeyond the interior wall of the second end member in a distal direction,wherein the elongated tubular body comprises a cylindrical wall adjacentto a portion of the interior wall of the second end member such that thecylindrical wall of the elongated tubular body forms a perimeter aroundan exterior facing portion of the interior wall of the second endmember, and the elongated tubular body further comprises the first endportion adjacent to the first end member, the first end portioncomprising a body threaded portion and a body shoulder portion, whereinthe first end member further comprises a base and an end member threadedportion, the base being generally planar and perpendicular to the endmember threaded portion such that the base comprises an end membershoulder portion corresponding to the body shoulder portion and the endmember threaded portion also corresponding to the body threaded portionsuch that a diameter of the base of the first end member is the same asa diameter of the elongated tubular body, wherein the interior wall ofthe second end member has a shoulder portion disposed on a distal end ofthe cylindrical wall such that the shoulder portion has a diameter lessthan a diameter of the distal end of the cylindrical wall.
 13. Thecartridge of claim 12, wherein the first filter is disposed in the firstcavity defined by the cylindrical wall of the elongated tubular body.14. The cartridge of claim 1, wherein the interior wall of the first endmember comprises a first side contacting the first filter along alongitudinal direction and a second side contacting the bed ofdisinfectant material in a horizontal direction perpendicular to thefirst side.